// Copyright (c) 2009 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/tools/flip_server/http_interface.h" #include "net/tools/dump_cache/url_utilities.h" #include "net/tools/flip_server/balsa_frame.h" #include "net/tools/flip_server/flip_config.h" #include "net/tools/flip_server/sm_connection.h" #include "net/tools/flip_server/spdy_util.h" namespace net { HttpSM::HttpSM(SMConnection* connection, SMInterface* sm_spdy_interface, EpollServer* epoll_server, MemoryCache* memory_cache, FlipAcceptor* acceptor) : seq_num_(0), http_framer_(new BalsaFrame), stream_id_(0), server_idx_(-1), connection_(connection), sm_spdy_interface_(sm_spdy_interface), output_list_(connection->output_list()), output_ordering_(connection), memory_cache_(connection->memory_cache()), acceptor_(acceptor) { http_framer_->set_balsa_visitor(this); http_framer_->set_balsa_headers(&headers_); if (acceptor_->flip_handler_type_ == FLIP_HANDLER_PROXY) http_framer_->set_is_request(false); } HttpSM::~HttpSM() { Reset(); delete http_framer_; } void HttpSM::ProcessBodyData(const char *input, size_t size) { if (acceptor_->flip_handler_type_ == FLIP_HANDLER_PROXY) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Process Body Data: stream " << stream_id_ << ": size " << size; sm_spdy_interface_->SendDataFrame(stream_id_, input, size, 0, false); } } void HttpSM::ProcessHeaders(const BalsaHeaders& headers) { if (acceptor_->flip_handler_type_ == FLIP_HANDLER_HTTP_SERVER) { std::string host = UrlUtilities::GetUrlHost(headers.GetHeader("Host").as_string()); std::string method = headers.request_method().as_string(); VLOG(1) << ACCEPTOR_CLIENT_IDENT << "Received Request: " << headers.request_uri().as_string() << " " << method; std::string filename = EncodeURL(headers.request_uri().as_string(), host, method); NewStream(stream_id_, 0, filename); stream_id_ += 2; } else { VLOG(1) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Received Response from " << connection_->server_ip_ << ":" << connection_->server_port_ << " "; sm_spdy_interface_->SendSynReply(stream_id_, headers); } } void HttpSM::MessageDone() { if (acceptor_->flip_handler_type_ == FLIP_HANDLER_PROXY) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: MessageDone. Sending EOF: " << "stream " << stream_id_; sm_spdy_interface_->SendEOF(stream_id_); } else { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: MessageDone."; } } void HttpSM::HandleHeaderError(BalsaFrame* framer) { HandleError(); } void HttpSM::HandleChunkingError(BalsaFrame* framer) { HandleError(); } void HttpSM::HandleBodyError(BalsaFrame* framer) { HandleError(); } void HttpSM::HandleError() { VLOG(1) << ACCEPTOR_CLIENT_IDENT << "Error detected"; } void HttpSM::AddToOutputOrder(const MemCacheIter& mci) { output_ordering_.AddToOutputOrder(mci); } void HttpSM::SendOKResponse(uint32 stream_id, std::string* output) { SendOKResponseImpl(stream_id, output); } void HttpSM::InitSMInterface(SMInterface* sm_spdy_interface, int32 server_idx) { sm_spdy_interface_ = sm_spdy_interface; server_idx_ = server_idx; } void HttpSM::InitSMConnection(SMConnectionPoolInterface* connection_pool, SMInterface* sm_interface, EpollServer* epoll_server, int fd, std::string server_ip, std::string server_port, std::string remote_ip, bool use_ssl) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Initializing server " << "connection."; connection_->InitSMConnection(connection_pool, sm_interface, epoll_server, fd, server_ip, server_port, remote_ip, use_ssl); } size_t HttpSM::ProcessReadInput(const char* data, size_t len) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Process read input: stream " << stream_id_; return http_framer_->ProcessInput(data, len); } size_t HttpSM::ProcessWriteInput(const char* data, size_t len) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Process write input: size " << len << ": stream " << stream_id_; char * dataPtr = new char[len]; memcpy(dataPtr, data, len); DataFrame* data_frame = new DataFrame; data_frame->data = (const char *)dataPtr; data_frame->size = len; data_frame->delete_when_done = true; connection_->EnqueueDataFrame(data_frame); return len; } bool HttpSM::MessageFullyRead() const { return http_framer_->MessageFullyRead(); } void HttpSM::SetStreamID(uint32 stream_id) { stream_id_ = stream_id; } bool HttpSM::Error() const { return http_framer_->Error(); } const char* HttpSM::ErrorAsString() const { return BalsaFrameEnums::ErrorCodeToString(http_framer_->ErrorCode()); } void HttpSM::Reset() { VLOG(1) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Reset: stream " << stream_id_; http_framer_->Reset(); } void HttpSM::ResetForNewConnection() { if (acceptor_->flip_handler_type_ == FLIP_HANDLER_PROXY) { VLOG(1) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Server connection closing " << "to: " << connection_->server_ip_ << ":" << connection_->server_port_ << " "; } // Message has not been fully read, either it is incomplete or the // server is closing the connection to signal message end. if (!MessageFullyRead()) { VLOG(2) << "HTTP response closed before end of file detected. " << "Sending EOF to spdy."; sm_spdy_interface_->SendEOF(stream_id_); } seq_num_ = 0; output_ordering_.Reset(); http_framer_->Reset(); if (sm_spdy_interface_) { sm_spdy_interface_->ResetForNewInterface(server_idx_); } } void HttpSM::Cleanup() { if (!(acceptor_->flip_handler_type_ == FLIP_HANDLER_HTTP_SERVER)) { VLOG(2) << "HttpSM Request Fully Read; stream_id: " << stream_id_; connection_->Cleanup("request complete"); } } int HttpSM::PostAcceptHook() { return 1; } void HttpSM::NewStream(uint32 stream_id, uint32 priority, const std::string& filename) { MemCacheIter mci; mci.stream_id = stream_id; mci.priority = priority; if (!memory_cache_->AssignFileData(filename, &mci)) { // error creating new stream. VLOG(2) << ACCEPTOR_CLIENT_IDENT << "Sending ErrorNotFound"; SendErrorNotFound(stream_id); } else { AddToOutputOrder(mci); } } void HttpSM::SendEOF(uint32 stream_id) { SendEOFImpl(stream_id); if (acceptor_->flip_handler_type_ == FLIP_HANDLER_PROXY) { sm_spdy_interface_->ResetForNewInterface(server_idx_); } } void HttpSM::SendErrorNotFound(uint32 stream_id) { SendErrorNotFoundImpl(stream_id); } size_t HttpSM::SendSynStream(uint32 stream_id, const BalsaHeaders& headers) { return 0; } size_t HttpSM::SendSynReply(uint32 stream_id, const BalsaHeaders& headers) { return SendSynReplyImpl(stream_id, headers); } void HttpSM::SendDataFrame(uint32 stream_id, const char* data, int64 len, uint32 flags, bool compress) { SendDataFrameImpl(stream_id, data, len, flags, compress); } void HttpSM::SendEOFImpl(uint32 stream_id) { DataFrame* df = new DataFrame; df->data = "0\r\n\r\n"; df->size = 5; df->delete_when_done = false; EnqueueDataFrame(df); if (acceptor_->flip_handler_type_ == FLIP_HANDLER_HTTP_SERVER) { Reset(); } } void HttpSM::SendErrorNotFoundImpl(uint32 stream_id) { BalsaHeaders my_headers; my_headers.SetFirstlineFromStringPieces("HTTP/1.1", "404", "Not Found"); my_headers.RemoveAllOfHeader("content-length"); my_headers.AppendHeader("transfer-encoding", "chunked"); SendSynReplyImpl(stream_id, my_headers); SendDataFrame(stream_id, "page not found", 14, 0, false); SendEOFImpl(stream_id); output_ordering_.RemoveStreamId(stream_id); } void HttpSM::SendOKResponseImpl(uint32 stream_id, std::string* output) { BalsaHeaders my_headers; my_headers.SetFirstlineFromStringPieces("HTTP/1.1", "200", "OK"); my_headers.RemoveAllOfHeader("content-length"); my_headers.AppendHeader("transfer-encoding", "chunked"); SendSynReplyImpl(stream_id, my_headers); SendDataFrame(stream_id, output->c_str(), output->size(), 0, false); SendEOFImpl(stream_id); output_ordering_.RemoveStreamId(stream_id); } size_t HttpSM::SendSynReplyImpl(uint32 stream_id, const BalsaHeaders& headers) { SimpleBuffer sb; headers.WriteHeaderAndEndingToBuffer(&sb); DataFrame* df = new DataFrame; df->size = sb.ReadableBytes(); char* buffer = new char[df->size]; df->data = buffer; df->delete_when_done = true; sb.Read(buffer, df->size); VLOG(2) << ACCEPTOR_CLIENT_IDENT << "Sending HTTP Reply header " << stream_id_; size_t df_size = df->size; EnqueueDataFrame(df); return df_size; } size_t HttpSM::SendSynStreamImpl(uint32 stream_id, const BalsaHeaders& headers) { SimpleBuffer sb; headers.WriteHeaderAndEndingToBuffer(&sb); DataFrame* df = new DataFrame; df->size = sb.ReadableBytes(); char* buffer = new char[df->size]; df->data = buffer; df->delete_when_done = true; sb.Read(buffer, df->size); VLOG(2) << ACCEPTOR_CLIENT_IDENT << "Sending HTTP Reply header " << stream_id_; size_t df_size = df->size; EnqueueDataFrame(df); return df_size; } void HttpSM::SendDataFrameImpl(uint32 stream_id, const char* data, int64 len, uint32 flags, bool compress) { char chunk_buf[128]; snprintf(chunk_buf, sizeof(chunk_buf), "%x\r\n", (unsigned int)len); std::string chunk_description(chunk_buf); DataFrame* df = new DataFrame; df->size = chunk_description.size() + len + 2; char* buffer = new char[df->size]; df->data = buffer; df->delete_when_done = true; memcpy(buffer, chunk_description.data(), chunk_description.size()); memcpy(buffer + chunk_description.size(), data, len); memcpy(buffer + chunk_description.size() + len, "\r\n", 2); EnqueueDataFrame(df); } void HttpSM::EnqueueDataFrame(DataFrame* df) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: Enqueue data frame: stream " << stream_id_; connection_->EnqueueDataFrame(df); } void HttpSM::GetOutput() { MemCacheIter* mci = output_ordering_.GetIter(); if (mci == NULL) { VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: GetOutput: nothing to " << "output!?: stream " << stream_id_; return; } if (!mci->transformed_header) { mci->bytes_sent = SendSynReply(mci->stream_id, *(mci->file_data->headers)); mci->transformed_header = true; VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: GetOutput transformed " << "header stream_id: [" << mci->stream_id << "]"; return; } if (mci->body_bytes_consumed >= mci->file_data->body.size()) { SendEOF(mci->stream_id); output_ordering_.RemoveStreamId(mci->stream_id); VLOG(2) << ACCEPTOR_CLIENT_IDENT << "GetOutput remove_stream_id: [" << mci->stream_id << "]"; return; } size_t num_to_write = mci->file_data->body.size() - mci->body_bytes_consumed; if (num_to_write > mci->max_segment_size) num_to_write = mci->max_segment_size; SendDataFrame(mci->stream_id, mci->file_data->body.data() + mci->body_bytes_consumed, num_to_write, 0, true); VLOG(2) << ACCEPTOR_CLIENT_IDENT << "HttpSM: GetOutput SendDataFrame[" << mci->stream_id << "]: " << num_to_write; mci->body_bytes_consumed += num_to_write; mci->bytes_sent += num_to_write; } } // namespace net